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Registro Completo |
Biblioteca(s): |
Embrapa Caprinos e Ovinos. |
Data corrente: |
21/12/2006 |
Data da última atualização: |
13/12/2023 |
Autoria: |
DUNN, G. M.; LOWE, K. F.; TAYLOR, D. W.; BOWDLER, T. M. |
Título: |
Early tree pasture growth in an agroforestry system evaluating Albizia lebbeck, Casuarina cunninghamiana and Eucalyptus maculata in south-east Queensland. |
Ano de publicação: |
1994 |
Fonte/Imprenta: |
Tropical Grassland, v. 28, n. 3, p. 170-181, 1994. |
Idioma: |
Inglês |
Conteúdo: |
Abstract : An experiment evaluating Albizia lebbeck, Casuarina cunninghamiana and Eucalyptus maculata at 5 densities in a pasture containing Chloris gayana cv. Callide (rhodes grass), Chamaecrista rotundifolia cv. Wynn (Wynn cassia), Stylosanthes scabra cv. Seca (stylo), Lotononis bainesii cv. Miles (lotononis) and Trifolium repens cv. Haifa (white clover) was established in SE Queensland in 1990. The 5 planting densities (78, 182, 343, 771 and 1189 stems/ha) were replicated on lower, mid- and upper slope positions. Over the first 3 years, C. cunninghamiana (mean height 5.5 m) grew significantly faster than E. maculata (4.3 m), which, in turn, grew significantly faster than A. lebbeck (2.6 m). Due to its poor growth and a mortality rate of 12.3%, A. lebbeck was considered poorly suited to the site. The heights of the 3 species were not significantly affected by planting density or position on the slope. Stem diameter at 1.3 m (diameter at breast height, DBH), measured for 3-year-old C. cunninghamiana only, peaked at 343 stems/ha. The DBHs of mid- and lower slope trees were similar and significantly greater (by 17.4%) than those of upper slope trees. During the 3rd year after establishment, median pasture yield (measured midway between trees at all spacings) was significantly increased under the highest 2 density treatments of A. lebbeck (by 17.7% and 39.6%) and E. maculata (by 25.5% and 17.2%) when compared with other density treatments. The proportion of pasture in each plot killed by the application of herbicide (glyphosate) around the base of establishing trees increased with increasing density, from 1.4% (78 stems/ha) to 21% (1189 stems/ha). Thus, although median pasture yield was significantly higher under the highest densities, yields adjusted for these sprayed areas were similar and unaffected by tree density, averaging 7.4 t/ha. At this early stage, pasture yields were also unaffected by tree species or slope position. MenosAbstract : An experiment evaluating Albizia lebbeck, Casuarina cunninghamiana and Eucalyptus maculata at 5 densities in a pasture containing Chloris gayana cv. Callide (rhodes grass), Chamaecrista rotundifolia cv. Wynn (Wynn cassia), Stylosanthes scabra cv. Seca (stylo), Lotononis bainesii cv. Miles (lotononis) and Trifolium repens cv. Haifa (white clover) was established in SE Queensland in 1990. The 5 planting densities (78, 182, 343, 771 and 1189 stems/ha) were replicated on lower, mid- and upper slope positions. Over the first 3 years, C. cunninghamiana (mean height 5.5 m) grew significantly faster than E. maculata (4.3 m), which, in turn, grew significantly faster than A. lebbeck (2.6 m). Due to its poor growth and a mortality rate of 12.3%, A. lebbeck was considered poorly suited to the site. The heights of the 3 species were not significantly affected by planting density or position on the slope. Stem diameter at 1.3 m (diameter at breast height, DBH), measured for 3-year-old C. cunninghamiana only, peaked at 343 stems/ha. The DBHs of mid- and lower slope trees were similar and significantly greater (by 17.4%) than those of upper slope trees. During the 3rd year after establishment, median pasture yield (measured midway between trees at all spacings) was significantly increased under the highest 2 density treatments of A. lebbeck (by 17.7% and 39.6%) and E. maculata (by 25.5% and 17.2%) when compared with other density treatments. The proportion of pasture in each plo... Mostrar Tudo |
Palavras-Chave: |
Agroforestry systems; Albizzia lebbeck; Coração de negro; Eucalyptus maculata; Increment; Plant height; Sistema agrossilvipastoril; Sylvopastoral systems. |
Thesagro: |
Albizia lebbeck; Chloris Gayana; Crescimento; Desmama Precoce; Pastagem Nativa; Stylosanthes Scabra; Trifolium Repens. |
Thesaurus Nal: |
Casuarina cunninghamiana; Chamaecrista rotundifolia; Corymbia maculata; Diameter; Farms and Farming Systems; Forest growth; Forest trees; Glyphosate; Herbicides; Lotononis bainesii; Mortality; Multipurpose trees; Stand density. |
Categoria do assunto: |
P Recursos Naturais, Ciências Ambientais e da Terra |
Marc: |
LEADER 03399naa a2200493 a 4500 001 1520763 005 2023-12-13 008 1994 bl uuuu u00u1 u #d 100 1 $aDUNN, G. M. 245 $aEarly tree pasture growth in an agroforestry system evaluating Albizia lebbeck, Casuarina cunninghamiana and Eucalyptus maculata in south-east Queensland. 260 $c1994 520 $aAbstract : An experiment evaluating Albizia lebbeck, Casuarina cunninghamiana and Eucalyptus maculata at 5 densities in a pasture containing Chloris gayana cv. Callide (rhodes grass), Chamaecrista rotundifolia cv. Wynn (Wynn cassia), Stylosanthes scabra cv. Seca (stylo), Lotononis bainesii cv. Miles (lotononis) and Trifolium repens cv. Haifa (white clover) was established in SE Queensland in 1990. The 5 planting densities (78, 182, 343, 771 and 1189 stems/ha) were replicated on lower, mid- and upper slope positions. Over the first 3 years, C. cunninghamiana (mean height 5.5 m) grew significantly faster than E. maculata (4.3 m), which, in turn, grew significantly faster than A. lebbeck (2.6 m). Due to its poor growth and a mortality rate of 12.3%, A. lebbeck was considered poorly suited to the site. The heights of the 3 species were not significantly affected by planting density or position on the slope. Stem diameter at 1.3 m (diameter at breast height, DBH), measured for 3-year-old C. cunninghamiana only, peaked at 343 stems/ha. The DBHs of mid- and lower slope trees were similar and significantly greater (by 17.4%) than those of upper slope trees. During the 3rd year after establishment, median pasture yield (measured midway between trees at all spacings) was significantly increased under the highest 2 density treatments of A. lebbeck (by 17.7% and 39.6%) and E. maculata (by 25.5% and 17.2%) when compared with other density treatments. The proportion of pasture in each plot killed by the application of herbicide (glyphosate) around the base of establishing trees increased with increasing density, from 1.4% (78 stems/ha) to 21% (1189 stems/ha). Thus, although median pasture yield was significantly higher under the highest densities, yields adjusted for these sprayed areas were similar and unaffected by tree density, averaging 7.4 t/ha. At this early stage, pasture yields were also unaffected by tree species or slope position. 650 $aCasuarina cunninghamiana 650 $aChamaecrista rotundifolia 650 $aCorymbia maculata 650 $aDiameter 650 $aFarms and Farming Systems 650 $aForest growth 650 $aForest trees 650 $aGlyphosate 650 $aHerbicides 650 $aLotononis bainesii 650 $aMortality 650 $aMultipurpose trees 650 $aStand density 650 $aAlbizia lebbeck 650 $aChloris Gayana 650 $aCrescimento 650 $aDesmama Precoce 650 $aPastagem Nativa 650 $aStylosanthes Scabra 650 $aTrifolium Repens 653 $aAgroforestry systems 653 $aAlbizzia lebbeck 653 $aCoração de negro 653 $aEucalyptus maculata 653 $aIncrement 653 $aPlant height 653 $aSistema agrossilvipastoril 653 $aSylvopastoral systems 700 1 $aLOWE, K. F. 700 1 $aTAYLOR, D. W. 700 1 $aBOWDLER, T. M. 773 $tTropical Grassland$gv. 28, n. 3, p. 170-181, 1994.
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Registro original: |
Embrapa Caprinos e Ovinos (CNPC) |
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Registros recuperados : 3 | |
1. | | ZUIDEMA, P. A.; BABST, F.; GROENENDIJK, P.; TROUET, V.; ABIYU, A.; ACUÑA-SOTO, R.; ADENESKY-FILHO, E.; ALFARO-SÁNCHEZ, R.; VIEIRA ARAGÃO, J. R.; ASSIS-PEREIRA, G.; BAI, X.; BARBOSA, A. C.; BATTIPAGLIA, G.; BEECKMAN, H.; BOTOSSO, P. C.; BRADLEY, T.; BRÄUNING, A.; BRIENEN, R.; BUCKLEY, B. M.; CAMARERO, J. J.; CARVALHO, A.; CECCANTINI, G.; CENTENO-ERGUERA, L. R.; CERANO-PAREDES, J.; CHÁVEZ-DURÁN, A. A.; CINTRA, B. B. L.; CLEAVELAND, M. K.; COURALET, C.; D'ARRIGO, R.; DEL VALLE, J. I.; DÜNISCH, O.; ENQUIST, B. J.; ESEMANN-QUADROS, K.; ESHETU, Z.; FAN, Z.-X.; FERRERO, M. E.; FICHTLER, E.; FONTANA, C.; FRANCISCO, K. S.; GEBREKIRSTOS, A.; GLOOR; GRANATO-SOUZA, D.; HANECA, K.; HARLEY, G. L.; HEINRICH, I.; HELLE, G.; INGA, J. G.; ISLAM, M.; JIANG, Y.-M.; KAIB, M.; KHAMISI, Z. H.; KOPROWSKI, M.; KRUIJT, B.; LAYME, E.; LEEMANS, R.; LEFFLER, A. J.; LISI, C. S.; LOADER, N. J.; LOCOSSELLI, G. M.; LOPEZ, L.; LÓPEZ-HERNÁNDEZ, M. I.; LOUSADA, J. L. P. C.; MENDIVELSO, H. A.; MOKRIA, M.; MONTÓIA, V. R.; MOORS, E.; NABAIS, C.; NGOMA, J.; NOGUEIRA JÚNIOR, F. de C.; OLIVEIRA, J. M.; OLMEDO, G. M.; PAGOTTO, M. A.; PANTHI, S.; PÉREZ-DE-LIS, G.; PUCHA-COFREP, D.; PUMIJUMNONG, N.; RAHMAN, M.; RAMIREZ, J. A.; REQUENA-ROJAS, E. J.; RIBEIRO, A. de S.; ROBERTSON, I.; ROIG, F. A.; RUBIO-CAMACHO, E. A.; SASS-KLAASSEN, U.; SCHÖNGART, J.; SHEPPARD, P. R.; SLOTTA, F.; SPEER, J. H.; THERRELL, M. D.; TOIRAMBE, B.; TOMAZELLO-FILHO, M.; TORBENSON, M. C. A.; TOUCHAN, R.; VENEGAS-GONZÁLEZ, A.; VILLALBA, R.; VILLANUEVA-DIAZ, J.; VINYA, R.; VLAM, M.; WILS, T.; ZHOU, Z.-K. Tropical tree growth driven by dry-season climate variability. Nature Geoscience, v. 15, p. 269-276, 2022.Tipo: Artigo em Periódico Indexado | Circulação/Nível: A - 1 |
Biblioteca(s): Embrapa Florestas. |
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2. | | MUSCARELLA, R.; EMILIO, T.; PHILLIPS, O. L.; LEWIS, S. L.; SLIK, F.; BAKER, W. J.; COUVREUR, T. L. P.; EISERHARDT, W. L.; SVENNING, J.-C.; AFFUM-BAFFOE, K.; AIBA, S.-I.; ALMEIDA, E. C. de; ALMEIDA, S. S. de; OLIVEIRA, E. A. de; ÁLVAREZ-DÁVILA, E.; ALVES, L. F.; ALVEZ-VALLES, C. M.; CARVALHO, F. A.; GUARIN, F. A.; ANDRADE, A.; ARAGÃO, L. E. O. C.; MURAKAMI, A. A.; ARROYO, L.; ASHTON, P. S.; CORREDOR, G. A. A.; BAKER, T. R.; CAMARGO, P. B. de; BARLOW, J.; BASTIN, J.-B.; BENGONE, N. N.; BERENGUER, E.; BERRY, N.; BLANC, L.; BÖHNING-GAESE, K.; BONAL, D.; BONGERS, F.; BRADFORD, M.; BRAMBACH, F.; BREARLEY, F. Q.; BREWER, S. W.; CAMARGO, J. L. C.; CAMPBELL, D. G.; CASTILHO, C. V. de; CASTRO, W.; CATCHPOLE, D.; CERÓN MARTÍNEZ, C. E.; CHEN, S.; CHHANG, P.; CHO, P.; CHUTIPONG, W.; CLARK, C.; COLLINS, M.; COMISKEY, J. A.; MEDINA, M. N. C.; COSTA, F. R. C.; CULMSEE, H.; DAVID-HIGUITA, H.; DAVIDAR, P.; AGUILA-PASQUEL, J. del; DERROITE, G.; Di FIORE, A.; DO, T. V.; DOUCET, J.-L.; DOURDAIN, A.; DRAKE, D. R.; ENSSLIN, A.; ERWIN, T.; EWANGO, C. E. N.; EWERS, R. M.; FAUSET, S.; FELDPAUSCH, T. R.; FERREIRA, J. N.; FERREIRA, L. V.; FISCHER, M.; FRANKLIN, J.; FREDRIKSSON, G. M.; GILLESPIE, T. W.; GILPIN, M.; GONMADJE, C.; GUNATILLEKE, A. U. N.; HAKEEM, K. R.; HALL, J. S.; HAMER, K. C.; HARRIS, D. J.; HARRISON, R. D.; HECTOR, A.; HEMP, A.; HERAULT, B.; PIZANGO, C. G. H.; CORONADO, E. N. H.; HUBAU, W.; HUSSAIN, M. S.; IBRAHIM, F.-H.; IMAI, N.; JOLY, C. A.; JOSEPH, S.; K, A.; KARTAWINATA, K.; KASSI, J.; KILEEN, T. J.; KITAYAMA, K.; KLITGARD, B. B.; KOOYMAN, R.; LABRIÈRE, N.; LARNEY, E.; LAUMONIER, Y.; LAURANCE, S. G.; LAURANCE, W. F.; LAWES, M. J.; LEVESLEY, A.; LISINGO, J.; LOVEJOY, T.; LOVETT, J. C.; LU, X.; LYKKE, A. M.; MAGNUSSON, W. E.; MAHAYANI, N. P. D.; MALHI, Y.; MANSOR, A.; PEÑA, J. L. M.; MARIMON-JUNIOR, B. H.; MARSHALL, A. R.; MELGACO, K.; BAUTISTA, C. M.; MIHINDOU, V.; MILLET, J.; MILLIKEN, W.; MOHANDASS, D.; MONTEAGUDO MENDOZA, A. L.; MUGERWA, B.; NAGAMASU, H.; NAGY, L.; SEUATURIEN, N.; NASCIMENTO, M. T.; NEILL, D. A.; MENINI NETO, L.; NILUS, R.; NÚÑEZ VARGAS, M. P.; NURTJA, E.; ARAÚJO, R. N. O. de; ONRIZAL, O.; PALACIOS, W. A.; PALACIOS-RAMOS, S.; PARREN, M.; PAUDEL, E.; MORANDI, P. S.; PENNINGTON, R. T.; PICKAVANCE, G.; PIPOLY III, J. J.; PITMAN, N. C. A.; POEDJIRAHAJOE, E.; POORTER, L.; POULSEN, J. R.; PRASAD, P. R. C.; PRIETO, A.; PUYRAVAUD, J.-P.; QIE, L.; QUESADA, C. A.; RAMÍREZ-ANGULO, H.; RAZAFIMAHAIMODISON, J. C.; REITSMA, J. M.; REQUENA-ROJAS, E. J.; CORREA, Z. R.; RODRIGUEZ, C. R.; ROOPSIND, A.; ROVERO, F.; ROZAK, A.; RUDAS LLERAS, A.; RUTISHAUSER, E.; RUTTEN, G.; PUNCHI-MANAGE, R.; SALOMÃO, R. P.; SAM, H. V.; SARKER, S. K.; SATDICHANH, M.; SCHIETTI, J.; SCHMITT, C. B.; MARIMON, B. S.; SENBETA, F.; SHARMA, L. N.; SHEIL, D.; SIERRA, R.; SILVA-ESPEJO, J. E.; SILVEIRA, M.; SONKÉ, B.; STEININGER, M. K.; STEINMETZ, R.; STÉVART, T.; SUKUMAR, R.; SULTANA, A.; SUNDERLAND, T. C. H.; SURESH, H. S.; TANG, J.; TANNER, E.; STEEGE, H. ter; TERBORGH, J. W.; THEILADE, I.; TIMBERLAKE, J.; TOORES-LEZAMA, A.; UMUNAY, P.; URIARTE, M.; GAMARRA, L. V.; BULT, M. van de; HOUT, P. van der; VASQUEZ MARTINEZ, R.; VIEIRA, I. C. G.; VIEIRA, S. A.; VILANOVA, E.; CAYO, J. V.; WANG, O.; WEBB, C. O.; WEBB, E. L.; WHITE, L.; WHITFELD, T. J. S.; WICH, S.; WILLCOCK, S.; WISER, S. K.; YOUNG, K. R.; ZAKARIA, R.; ZANG, R.; ZARTMAN, C. E.; ZO-BI, I. C.; BALSLEV, H. The global abundance of tree palms. Global Ecology and Biogeography, v. 29, p. 1495-1514, 2020.Tipo: Artigo em Periódico Indexado | Circulação/Nível: A - 1 |
Biblioteca(s): Embrapa Amazônia Oriental; Embrapa Roraima. |
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3. | | SULLIVA, M. J. P.; LEWIS, S. L.; BAFFOE, K. A.; DIAS, C. C.; COSTA, F.; SANCHEZ, A. C.; EWANGO, C. E. N.; HUBAU, W.; MARIMON, B.; MENDOZA, A. M.; QUIE, L.; SONKÉ, B.; MARTINEZ, R. V.; BAKER, T. R.; BRIENE, R. J. W.; FELDPAUSCH. T. R.; GALBRAITH, D.; GLOO, M.; MALHI, Y.; AIBA, S. I.; ALEXIADES, M. N.; ALMEIDA, E. C.; OLIVEIRA, E. A. de; DAVILA, E. A.; LOAYZA, Q. A.; ANDRADE, A.; VIEIRA, S. A.; ARAGUAO, L. E. O. C.; MURAKAMI, A. A.; ARETS, E. J. M. M.; ARROYO, L.; ASHTON, P.; AYMARD, G.; BACCARO, F, B.; BANIN, L. F.; BARALOTO, C.; CAMARGO, P. B.; BARLOW, J.; BARROSO, J.; BASTIN, J. F.; BATTERMAN, S. A.; BEECKMAN, H.; BEGNE, S. K.; BENNETT, A. C.; BERENGUER, E.; BERRY, N.; BLANC, L.; BOESCKX, P.; BOGAERT, J.; BONA, D.; BONGERS, F.; BRADFOR, M.; BREARLEY, F. Q.; BRNCIC, T.; BROWN, F.; BURBAN, B.; CAMARGO, J, L.; CASTRO, W.; CÉRON, C.; RIBEIRO, S. C.; MOSCOSO. V. C.; CHAVE, J.; CHEZEAUX, E.; CLARK, C. J.; SOUZA, F. C. de; COLLINS, M.; COMISKEY, J. A.; VALVERDE, F. C.; MEDINA, M. C.; COSTA, L. da; DANCÁK, M.; DARGIE, G. C.; DAVIES, S.; CARDOZO, N. D.; HAULLEVILLE, T. de; MEDEIROS, M. B. de; PASQUE, J. del A.; DERROIRE, G.; FIORE, A. D.; DOUCE, J. L.; DOURDAIN, A.; DROISSART; DURQUE, L. F.; EKOUNGOULOU, R.; ELIAS, F.; ERWIN, T.; MUELBERT, A. E.; FERREIRA, J. N.; LLAMPAZO, G. F.; FOLI, E.; FORD, A.; GILPIN, M.; HALL, J. S.; HAMER, K. C.; HAMILTON, A. C.; HARRIS, D. J.; HART, T. B.; HEDL, R.; HERAULT, B.; HERRERA, R.; HIGUCHI, N.; HLADIK, A.; CORONADO, E. H.; CHUQUIMACO, I. H.; HUASCO, W. H.; JEFFERY, K. J.; ROJAS, E. J.; KALAMANDEEN, M.; DJUIKOUO, M. N. K.; KEARSLEY, E.; UMETSU, R. K.; KHO, L. K.; KILLEEN, T.; KITAYAMA, K.; KLITGAARD, B.; KOCH, A.; LABRIERE, N.; LAURANCE, W.; LAURANCE, S.; LEAL, M. E.; LEVESLEY, A.; LIMA, A. J. N.; LISINGO, J.; LOPES, A. P.; GONZALEZ, G. L.; LOVEJOY, T.; LOVETT, J. C.; LOWE, R.; MAGNUSSON, W. E.; OLARTE, J. M.; MANZATTO, A. G.; MARIMON JUNIOR, B. H.; MARSHALL, A. R.; MARTHEWS, T.; REIS, S. M. de A.; MAYCOCK, C.; MELGAÇO, K.; MENDOZA, C.; METALI, F.; MIHINDOU, V.; MILLIKEN, W.; MITCHARD, E. T. A.; MORAND, P. S.; MOSSMAN, H. L.; NAGY, L.; NASCIMENTO, H.; NEIL, D.; NILUS, R.; VARGAS, P. N.; PALACIOS, W.; CAMACHO, N. P.; PEACOC, J.; PENDRY, C.; MORA, M. C. P.; PICKAVANCE, G. C.; PIPOLY, J.; PITMAN, N.; PLAYFAIR, M.; POORTER, L.; POULSEN, J. R.; POULSEM, A. D.; PREZIOS, R.; PRIETO, A.; PRIMACK, R. B.; ANGULO, H. R.; REITSMA, J.; MÉCHAIN, M. R.; CORREA, Z. R.; SOUSA, T. R. de; BAYONA, L. R.; ROOPSIND, A.; RUDAS, A.; RUTISHAUSER, E.; SALIM, K. A.; SALOMÃO, R. P.; SCHIETTI, J.; SHEIL, D.; SILVA, R. C.; ESPEJO, J. S.; VALERIA, C. S.; SILVEIRA, M.; DROISSART, M. S.; SIMON, M. F.; SINGH, J.; SHAREVA, Y. C. S.; STAH, C.; STROPP, J.; SUKRI, R.; SUNDERLAND, T.; SVATEK, M.; SWAINE, M. D.; SWAMY, V.; TAEDOUMG, H.; TALBOT, J.; TAPLIN, J.; TAYLOR, D.; STEEGE, H. ter; TERBORGH, J.; THOMAS, R.; THOMAS, S. C.; LEZAMA, A. T.; UMUNAY, P.; GAMARRA, L. V.; HEIJDEN, G. V. der; HOUT, P. V. der; MEER, P. V. der; NIEUWSTADT, M. van; VERBEECK, H.; VERNIMMEN, R.; VICENTINI, A.; VIEIRA, I. C. G.; TORRE, E. V.; VLEMINCKX, J.; VOS, V.; WANG, O.; WHITE, L. J. T.; WILLCOCK, S.; WOODS, J. T.; WORTEL, V.; YOUNG, K.; ZAGT, R.; ZEMAGHO, L.; ZUIDEMA, P. A.; ZWERTS, J. A.; PHILLIPS, O. L. Long-term thermal sensitivity of Earths tropical forests Science, v. 368, n. 6493, p. 869-874, 2020.Tipo: Artigo em Periódico Indexado | Circulação/Nível: A - 1 |
Biblioteca(s): Embrapa Amazônia Oriental; Embrapa Recursos Genéticos e Biotecnologia. |
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Registros recuperados : 3 | |
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